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Research Program: Immunology and Vaccine Development

$9,134P30FY2019CANIH

Fred Hutchinson Cancer Research Center, Seattle WA

Investigators

Linked publications, trials & patents

Trial NCT06995898Trial NCT06682039Trial NCT06484595Trial NCT06193070Trial NCT05947500Trial NCT05930496Trial NCT05183828Trial NCT04902144Trial NCT04751383Trial NCT04682301Trial NCT04667481Trial NCT04660331Trial NCT04539366Trial NCT04505553Trial NCT04502524Trial NCT04500548Trial NCT04496219Trial NCT04489719Trial NCT04472338Trial NCT04466475Trial NCT04447313Trial NCT04444232Trial NCT04442581Trial NCT04431479Trial NCT04410900Trial NCT04387227Trial NCT04384692Trial NCT04383743Trial NCT04375631Trial NCT04372927Trial NCT04370301Trial NCT04359784Trial NCT04336943Trial NCT04329065Trial NCT04282187Trial NCT04260776Trial NCT04257578Trial NCT04254133Trial NCT04231877Trial NCT04220229Trial NCT04211766Trial NCT04208724Trial NCT04205409Trial NCT04200482Trial NCT04198922Trial NCT04196010Trial NCT04195945Trial NCT04195633Trial NCT04194918Trial NCT04188912Trial NCT04175431Trial NCT04156828Trial NCT04155840Trial NCT04151940Trial NCT04120246Trial NCT04111497Trial NCT04083183Trial NCT04083170Trial NCT04081779Trial NCT04081298Trial NCT04062955Trial NCT04060849Trial NCT03999515Trial NCT03991884Trial NCT03986502Trial NCT03980769Trial NCT03970096Trial NCT03907527Trial NCT03891784Trial NCT03864419Trial NCT03807063Trial NCT03806192Trial NCT03781778Trial NCT03779867Trial NCT03779854Trial NCT03778021Trial NCT03776864Trial NCT03749460Trial NCT03747484Trial NCT03737955Trial NCT03723863Trial NCT03718338Trial NCT03672981Trial NCT03670966Trial NCT03670069Trial NCT03660930Trial NCT03649841Trial NCT03641287Trial NCT03606486Trial NCT03602898Trial NCT03600038Trial NCT03585231Trial NCT03574012Trial NCT03570476Trial NCT03531918Trial NCT03525106Trial NCT03523195Trial NCT03522584Trial NCT03518242Trial NCT03516812

Abstract

Immunology and Vaccine Development Program The Immunology and Vaccine Development (IVD) Program bring together researchers and clinicians engaged in the study of cancer immunobiology, basic immunology, immunotherapy, vaccinology, and infectious diseases who shared a vision of developing immunologic strategies that could be deployed to harness the immune system for targeting malignancies as well as infectious diseases that develop and progress in immuno-compromised individuals. Modulating the immune system with vaccines for the prevention of human infections has had many very dramatic successes, but the paradigms and strategies for reagent development to prevent diseases such as polio or diphtheria have proven neither adequate nor readily translatable to infections such as HIV and tuberculosis or to the treatment of cancer. The IVD program strengthens existing collaborative interactions, provides opportunities for new collaborations, and promotes a synergy of research efforts that will accelerate progress in cancer immunology, immuno-therapeutics, and cancer vaccine development. The program's 50 members, 96% of whom have peer-reviewed funding, are drawn from all three partners institutions, three schools and 16 departments. The program has $16.8M in peer reviewed funding, including $4.8M from the NCI (direct dollars.) Program members are highly productive and collaborative, with 994 peer-reviewed publications during this grant period, of which 22% were intra-programmatic, 26% were inter-programmatic and 22% were inter-institutional. The program's specific aims are to: 1. Develop a greater breadth of cellular therapy interventional clinical trials, including initiating trials to advance cellular therapy to become an approved standard therapy for leukemia and solid tumors. 2. Define the immunological obstacles in the host and tumor microenvironment that interfere with effective immunotherapeutic targeting of tumors so that strategies can be developed to effectively treat cancers not currently responsive to therapy. 3. Identify, test, and validate improved strategies for infection control in immune compromised cancer patients. 4. Adapt and translate insights from our basic, preclinical, and clinical studies in vaccine biology to enhance immune responses to cancer antigens and improve the efficacy of adoptive T cell transfer.

View original record on NIH RePORTER →